[1]An improved strategy based on RAPD markers efficiently identified 95 peach cultivars. Yu, M. L.,Ma, R. J.,Shen, Z. J.,Wang, W. Y.,Fang, G.,Wang, W. Y.,Fang, G.. 2012

[2]An extended random primer amplified region (ERPAR) marker linked to a dominant male sterility gene in cabbage (Brassica oleracea var. capitata). Wang, XW,Fang, ZY,Huang, SW,Sun, PT,Liu, YM,Yang, LM,Zhuang, M,Qu, DY. 2000

[3]RAPD Markers Developed for Identifying Male Sterility in Tagetes erecta. Wang, Zhigang,Yin, Dongsheng,Wang, Ping,Zhao, Jingyun,Pan, Baitao,Zhang, Huihua. 2010

[4]Genome-wide analysis of the homeodomain-leucine zipper (HD-ZIP) gene family in peach (Prunus persica). Zhang, C. H.,Ma, R. J.,Shen, Z. J.,Yu, M. L.,Sun, X.,Korir, N. K.. 2014

[5]Isolation and expression analysis of four HD-ZIP III family genes targeted by microRNA166 in peach. Zhang, C. H.,Zhang, B. B.,Ma, R. J.,Yu, M. L.,Guo, S. L.,Guo, L.. 2015

[6]Comparative analysis of models for robust and accurate evaluation of soluble solids content in 'Pinggu' peaches by hyperspectral imaging. Chen, Liping. 2017

[7]Comparative Transcriptome and Microscopy Analyses Provide Insights into Flat Shape Formation in Peach (Prunus persica). Guo, Jian,Cao, Ke,Li, Yong,Wang, Qi,Zhu, Gengrui,Fang, Weichao,Chen, Changwen,Wang, Xinwei,Guan, Liping,Ding, Tiyu,Wang, Lirong,Yao, Jia-Long,Deng, Cecilia. 2018

[8]Peach germplasm and breeding programs at Zhengzhou in China. Wang, LR,Zhu, GR,Fang, WC. 2002

[9]Diversity, population structure, and evolution of local peach cultivars in China identified by simple sequence repeats. Shen, Z. J.,Zhang, Z.,Shen, Z. J.,Ma, R. J.,Cai, Z. X.,Yu, M. L.. 2015

[10]Potassium contributes to zinc stress tolerance in peach (Prunus persica) seedlings by enhancing photosynthesis and the antioxidant defense system. Song, Z. Z.,Guo, S. L.,Yang, Y.,Ma, R. J.,Yu, M. L.,Song, Z. Z.,Guo, S. L.,Yang, Y.,Ma, R. J.,Yu, M. L.,Duan, C. L.,Feng, Y. F.. 2015

[11]Genome-wide analysis of the AP2/ERF superfamily in peach (Prunus persica). Zhang, C. H.,Ma, R. J.,Guo, L.,Yu, M. L.,Shangguan, L. F.,Sun, X.,Tao, R.,Korir, N. K.. 2012

[12]Effects of exogenous salicylic acid on physiological traits and CBF gene expression in peach floral organs under freezing stress. Zhang, Binbin,Ma, Ruijuan,Guo, Lei,Song, Zhizhong,Yu, Mingliang. 2017

[13]Mutation rate analysis via parent-progeny sequencing of the perennial peach. I. A low rate in woody perennials and a higher mutagenicity in hybrids. Xie, Zhengqing,Wang, Long,Tian, Dacheng,Yang, Sihai,Wang, Lirong,Wang, Zhiqiang,Lu, Zhenhua,Hurst, Laurence D..

[14]Variation in Phenolics, Flavanoids, Antioxidant and Tyrosinase Inhibitory Activity of Peach Blossoms at Different Developmental Stages. Liu, Jie-Chao,Jiao, Zhong-Gao,Yang, Wen-Bo,Zhang, Chun-Ling,Liu, Hui,Lv, Zhen-Zhen.

[15]Molecular characterization of the PpMADS1 gene from peach. Li, Cui,Zhang, Lin,Li, Yun-Fu,Ma, Rong-Cai,Li, Cui,Xie, Hua,Xu, Yong,Li, Yun-Fu,Ma, Rong-Cai,Li, Cui. 2012

[16]Development of Ty1-copia retrotransposon-based SSAP molecular markers for the study of genetic diversity in peach. Jiao, Yun,Ma, Rui-juan,Shen, Zhi-jun,Yu, Ming-liang.

[17]Multiple R2R3-MYB Transcription Factors Involved in the Regulation of Anthocyanin Accumulation in Peach Flower. Zhou, Hui,Peng, Qian,Owiti, Albert,Liao, Liao,Wang, Lu,Deng, Xianbao,Han, Yuepeng,Peng, Qian,Owiti, Albert,Zhao, Jianbo,Ren, Fei,Jiang, Quan,Liao, Liao,Wang, Lu,Deng, Xianbao,Han, Yuepeng. 2016

[18]Cloning and expression of genes related to the sucrose-metabolizing enzymes and carbohydrate changes in peach. Zhang, Chunhua,Shen, Zhijun,Ma, Ruijuan,Yu, Mingliang,Zhang, Yanping,Han, Jian,Korir, Nicholas Kibet.

[19]gamma-Aminobutyric acid treatment reduces chilling injury and activates the defence response of peach fruit. Cai, Yuting,Zheng, Yonghua,Yang, Aiping,Cao, Shifeng,Yang, Zhenfeng. 2011

[20]Transcriptome analysis reveals novel genes involved in anthocyanin biosynthesis in the flesh of peach. Cao, Ke,Ding, Tiyu,Mao, Dongmin,Zhu, Gengrui,Fang, Weichao,Chen, Changwen,Wang, Xinwei,Wang, Lirong. 2018